MYC, metabolism, and cancer

ZE Stine, ZE Walton, BJ Altman, AL Hsieh, CV Dang - Cancer discovery, 2015 - AACR
ZE Stine, ZE Walton, BJ Altman, AL Hsieh, CV Dang
Cancer discovery, 2015AACR
The MYC oncogene encodes a transcription factor, MYC, whose broad effects make its
precise oncogenic role enigmatically elusive. The evidence to date suggests that MYC
triggers selective gene expression amplification to promote cell growth and proliferation.
Through its targets, MYC coordinates nutrient acquisition to produce ATP and key cellular
building blocks that increase cell mass and trigger DNA replication and cell division. In
cancer, genetic and epigenetic derangements silence checkpoints and unleash MYC's cell …
Abstract
The MYC oncogene encodes a transcription factor, MYC, whose broad effects make its precise oncogenic role enigmatically elusive. The evidence to date suggests that MYC triggers selective gene expression amplification to promote cell growth and proliferation. Through its targets, MYC coordinates nutrient acquisition to produce ATP and key cellular building blocks that increase cell mass and trigger DNA replication and cell division. In cancer, genetic and epigenetic derangements silence checkpoints and unleash MYC's cell growth– and proliferation-promoting metabolic activities. Unbridled growth in response to deregulated MYC expression creates dependence on MYC-driven metabolic pathways, such that reliance on specific metabolic enzymes provides novel targets for cancer therapy.
Significance: MYC's expression and activity are tightly regulated in normal cells by multiple mechanisms, including a dependence upon growth factor stimulation and replete nutrient status. In cancer, genetic deregulation of MYC expression and loss of checkpoint components, such as TP53, permit MYC to drive malignant transformation. However, because of the reliance of MYC-driven cancers on specific metabolic pathways, synthetic lethal interactions between MYC overexpression and specific enzyme inhibitors provide novel cancer therapeutic opportunities. Cancer Discov; 5(10); 1024–39. ©2015 AACR.
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